Shear mechanism for glassware forming machine

Description

[0001] Glassware such as bottles are conventionally manufactured in an individual section (I.S) machine. Such a machine has a plurality of individual sections which may produce one, two, three or four bottles each cycle.

[0002] Each container is formed from a gob which is sheared by a pair of reciprocating shears from a vertical runner of molten glass supplied by a suitable feeder. The lower shear blade has a tendency of pushing the top of the severed gob towards the other side of the mechanism forming a banana shaped gob and this is undesirable. To minimise this problem, a gob drop guide is utilised to limit such movement of the top of the gob. US Patent Numbers 4,214,497 and 4,791,845 disclose mechanisms for controlling the position of the drop guide.

[0003] US-A-4,214,497 discloses a shear mechanism for shearing discrete gobs from a runner of molten glass, comprising a shear assembly, a frame including opposed ends, parallel guide rails extending horizontally between said ends, and means for mounting the shear assembly on the guide rails for reciprocating longitudinal displacement. The shear assembly comprises at least one (specifically two) shear, and each shear has a corresponding gob drop guide assembly, each comprising a base portion and a top portion having a drop guide. The mechanism comprises means for selectively longitudinally displacing the base portion, and thus the drop guide, relative to its associated shear, and also means for rotating the drop guide about a vertical axis.

[0004] It is an object of the present invention to provide an improved mechanism for controlling the position of a drop guide in shear mechanism.

[0005] The invention provides,
   a shear mechanism for shearing discrete gobs from a runner of molten glass comprising
   a shear assembly,
   a frame including opposed ends,
   a pair of parallel guide rails extending horizontally between the ends,
   means for mounting the shear assembly on the guide rails for reciprocating longitudinal displacement,
   the shear assembly including at least one shear,
   a corresponding number of gob drop guide assemblies, each including a base portion and a top portion having a drop guide, and means for selectively longitudinally displacing the base portion relative to the associated shear, characterised in that
   the base portion includes means for supporting the top portion for horizontal linear displacement transverse to the longitudinal direction of displacement of the shear assembly,
   means being provided for transversely displacing the top portion relative to the base portion at any longitudinal portion of the base portion.

[0006] Other objects and advantages of the present invention will become apparent from the following portion of this specification and from the accompanying drawings which illustrate a presently preferred embodiment incorporating the principles of the invention.

[0007] Referring to the drawings:

Figure 1 is a top view of a portion of a shear mechanism made in accordance with the teachings of the present invention; and

Figure 2 is a view taken at 2-2 of Figure 1;

Figure 3 is a view taken at 3-3 of Figure 1;

Figure 4 is an oblique view of a drop guide assembly;

Figure 5 is a view taken at 5-5 of Figure 6;

Figure 6 is an enlarged view of a portion of Figure 1, with the shear removed; and

Figure 7 is a front view of the drop guide connecting plate.

[0008] The shear mechanism has pairs (two in the illustrated embodiment) of opposed upper 10 and lower 11 shears which are supported within a frame 12 for reciprocating displacement. A pair of guide shafts 14 extend along either side of the frame and slidably support the upper blade assembly 16 which includes a shear assembly housing 18 and an elongated tubular guide shaft support 20. The housing 18 is secured at one side via screws 22 to the guide shaft support 20 and is slidably interconnected with the lower guide shaft 14 by a bearing support 24.

[0009] Associated with each upper shear blade 10 is a drop guide 26. The position of each drop guide 26 is independently changeable laterally from side to side (transverse displacement) and forwardly and rearwardly (longitudinal displacement) relative to the shear blade 10. Rotation of the associated longitudinal displacement knob 28 will result in the longitudinal displacement of the drop guide 26 and rotation of an associated transverse displacement knob 30 will result in the transverse displacement of the drop guide. Rotation of the transverse displacement 30 knob rotates a shaft 32 and attached drive gear 34 (Figure 2) which via an idler 36 rotates a driven gear 38 secured to a drive shaft 39 having a bore 40 which is square in cross section. The longitudinal displacement drop guide knob 28 is connected to a drive shaft 42 which also has a square bore 40. A hex surface 44 is defined on the shaft outer diameter which operates together with a spring 46 supported by a block 47 to define a detent to hold the shaft at a desired orientation. Also secured to the frame 12 is a block 50 (Figure 3) supporting a spring 52 which is operatively associated with an enlarged fine toothed wheel 54 which is secured to the gob guide transverse displacement shaft 32 so that lateral adjustments can be made in fine increments. As can be seen from Figure 1, each of the drop guide drive shafts 39, 42 receives a driven shaft 60, 61 which extends rearwardly from the shear assembly housing 18 and which has a matching square cross section. The length of both the drive shafts and the driven shafts is selected so that they will be operatively associated throughout the displacement of the shear assembly housing 18.

[0010] Each drop guide assembly (Figure 4) includes a base 62 having opposed transverse top flanges 63 which define a slide surface 64 supporting and guiding the lateral displacement of the gob drop guide support block 66 to which the drop guide 26 is secured. The slide includes a lateral groove 68 which receives a rack 70 secured to the bottom of the block 66 and driven by a pinion 72 (Figure 5) secured to the end of the drop guide transverse displacement driven shaft 60. The block has a laterally extending opening 74 which is partially defined by opposed inwardly extending shelves 76 for capturing the base flanges 63.

[0011] The front threaded end of the drop guide longitudinal displacement driven shaft 61 (Figure 6) has a threaded portion 80 which is coupled to a nut 81 carried by a cross link 82 which is connected to a pair of rods 84 slidably supported within the housing 18 for relative axial displacement. The base 62 of the drop guide is secured to these rods so that rotation of the control knob 28 will advance or retract the drop guide. A notch 86 is defined near the front end of these rods (Figure 7) and the front end of the drop guide transverse displacement driven shaft 60 has an annular groove 88 which are captured by the bottom surface of the connecting plate 90 and the cut out 89 when the plate is shifted to the latching position shown in Figure 7. When the connecting plate is released by loosening a pair of screws 92 which pass through enlarged plate holes 94 and which are received by the drop guide base 62 and shifted to the right so that the plate becomes spaced from the lower left rod 84 and so that a large cut out 98 is adjacent and spaced from the lower right rod 84 and the cut out 89 is spaced from the shaft 60, the entire drop guide assembly can be pulled off the three rods and replaced with another assembly. The pinion 72 (Figure 5) is secured with a screw 95 to the pinion shaft 60 and the front end of the shaft is supported by a bearing 96 which is press fit within a base opening. The rear opening 99 of the base is large enough so that when the base 62 is released it can be completely pulled from the pinion and supporting shaft.

Claims

1. A shear mechanism for shearing discrete gobs from a runner of molten glass comprising
   a shear assembly (16),
   a frame (12) including opposed ends,
   a pair of parallel guide rails (14) extending horizontally between said ends,
   means (20,24) for mounting said shear assembly (16) on said guide rails (14) for reciprocating longitudinal displacement,
   the shear assembly (16) including at least one shear (10),
   a corresponding number of gob drop guide assemblies (26, 62, 66), each including a base portion (62) and a top portion (66) having a drop guide (26), and
   means (80,81,82,84) for selectively longitudinally displacing said base portion relative to the associated shear, characterised in that the base portion (62) includes means (63) for supporting the top portion (66) for horizontal linear displacement transverse to the longitudinal direction of displacement of the shear assembly,
   means (70,72) being provided for transversely displacing the top portion (66) relative to the base portion (62) at any longitudinal position of the base portion.

2. A shear mechanism according to claim 1, wherein said transverse displacing means comprises a rack (70) secured to the top portion (66) and a shaft (60) having a pinion (72) secured thereto for driving the rack.

3. A shear mechanism according to Claim 2, wherein the base portion (62) includes a slide surface (64).

4. A shear mechanism according to Claim 3, wherein the longitudinally displacing means includes a pair of supporting rods (84) slidably supported by said shear assembly (16) and means (90) for securing the base portion (62) to said rods.

Ansprüche

1. Schermechanik zum Abscheren diskreter Tropfen von einem Glasschmelzestrang mit
   einer Scherenanordnung (16),
   einem Rahmen (12) mit entgegengesetzten Enden,
   einem Paar zwischen den Enden waagerecht verlaufender paralleler Führungsschienen (14), und
   einer Einrichtung (20, 24) zum Lagern der Scherenanordnung (16) auf den Führungsschienen (14) zur hin- und hergehenden Längsverschiebung auf diesen, wobei
   die Scherenanordnung (16) mindestens eine Schere (10),
   eine entsprechende Anzahl von Tropfenführungen (26, 62, 66) mit jeweils einem Hauptstück (62) und einem Oberteil (66) mit einem Tropfenführungselement (26) sowie
   einer Einrichtung (80, 81, 82, 84) zur wahlweisen Längsverschiebung des Hauptstücks relativ zur zugehörigen Schere aufweist,
dadurch gekennzeichnet, daß
   das Hauptstück (62) eine Einrichtung (63) zum Lagern des Oberteils (66) für eine waagerechte gradlinige Verschiebung quer zur Längsverschiebeeinrichtung der Scherenanordnung aufweist und daß
   eine Einrichtung (70, 72) vorgesehen ist, um den Oberteil (66) in einem beliebigen Längsbereich der Hauptstücks (62) relativ zu diesem querzuverschieben.

2. Schermechanik nach Anspruch 1, bei der die Querverschiebeeinrichtung eine Zahnstange (70), die am Oberteil (66) befestigt ist, sowie eine Welle (60) mit einem an dieser befestigten Ritzel (72) zum Antrieb der Zahnstange aufweist.

3. Schermechanik nach Anspruch 2, bei der das Hauptstück (62) eine Gleitfläche (64) aufweist.

4. Schermechanik nach Anspruch 3, bei der die Längsverschiebeeinrichtung ein Paar tragender Stangen (84), die gleitend verschiebbar von der Scherenanordnung (16) gehaltert sind, sowie eine Einrichtung (90) zum Befestigen des Hauptstücks (62) an den Stangen aufweist.

Revendications

1. Mécanisme de cisaillement pour cisailler des paraisons discrètes à partir d'un cordon de verre fondu, comportant:
   un ensemble de cisaillement (16),
   un châssis (12) comportant des extrémités opposées,
   une paire de rails de guidage (14) parallèles s'étendant horizontalement entre les extrémités,
   des moyens (20, 24) pour monter ledit ensemble de cisaillement (16) sur lesdits rails de guidage (14) pour qu'il se déplace longitudinalement en va et vient,
   l'ensemble de cisaillement (16) comportant au moins une cisaille (10),
   un nombre correspondant d'ensembles de guidage de coulée de paraison (26, 62, 66), comportant chacun une partie de base (62) et une partie supérieure (66) ayant un guide de coulée (26), et
   des moyens (80, 81, 82, 84) pour déplacer de manière sélective longitudinalement ladite partie de base par rapport à la cisaille associée, caractérisé en ce que la partie de base (62) comporte des moyens (63) pour supporter la partie supérieure (66) pour qu'elle se déplace horizontalement de manière linéaire transversalement à la direction longitudinale de déplacement de l'ensemble de cisaillement,
   des moyens (70, 72) étant fournis pour déplacer transversalement la partie supérieure (66) par rapport à la partie de base (62) au niveau d'une position longitudinale quelconque de la partie de base.

2. Mécanisme de cisaillement selon la revendication 1, dans lequel lesdits moyens de déplacement transversal comportent une crémaillère (70) fixée sur la partie supérieure (66) et un arbre (60) ayant un pignon (72) qui est fixé sur celui-ci pour entraîner la crémaillère.

3. Mécanisme de cisaillement selon la revendication 2, dans lequel la partie de base (62) comporte une surface de coulissement (64).

4. Mécanisme de cisaillement selon la revendication 3, dans lequel les moyens de déplacement longitudinal comportent une paire de tiges de support (84) supportées de manière coulissante par ledit ensemble (16) de cisaillement et des moyens (90) pour fixer la partie de base (62) sur lesdites tiges.

Drawing